Direct expression in E. coli of a functionally active protein A--snake toxin fusion protein

We constructed a recombinant expression plasmid encoding a protein A--neurotoxin fusion protein. The fused toxin is directly expressed in the periplasmic space of Escherichia coli and can be purified in the milligram range by a single immuno-affinity step. The LD50 values of the fused toxin and native toxin are 130 and 20 nmol/kg mouse respectively. The Kd values characterizing their binding to the nicotinic acetylcholine receptor (AcChoR) are respectively 4.8 +/- 0.8 and 0.07 +/- 0.03 nM. In contrast, the fused and native toxins are equally well recognized by a toxin-specific monoclonal antibody which recognizes the AcChoR binding site. The lower toxicity of the fused toxin might result, therefore, from a steric hindrance, due to the presence of the bulky protein A moiety (mol. wt = 31 kd) rather than to a direct alteration of the 'toxic' site. The fused toxin is more immunogenic than native toxin, since 1 nmol of hybrid toxin and 14 nmol of native toxin give rise to comparable titers of antitoxin antibodies which, furthermore, are equally potent at neutralizing neurotoxicity. The work described in this paper shows that the use of fused toxins may be of paramount importance for future development of serotherapy against envenomation by snake bites.     

Induction of a neutralizing immune response to human respiratory syncytial virus with anti-idiotypic antibodies.

Anti-idiotypic (anti-Id) antibodies were raised in rabbits against monoclonal antibodies that recognized either F glycoprotein 47F or G glycoprotein 63G, 62G, or 74G of the human respiratory syncytial virus Long strain. Anti-Id sera inhibited the virus binding of the immunizing monoclonal antibodies and in some cases the binding of other antibodies reacting with overlapping epitopes. The anti-Id sera also inhibited virus neutralization mediated by the original monoclonal antibodies. Affinity purified anti-Id antibodies were subsequently used to raise a homologous anti-anti-Id response in rabbits. One of the rabbits, inoculated with anti-Id 63G, generated antibodies that reacted with the G protein of respiratory syncytial virus and neutralized the virus to high titers. The antiviral antibodies induced by anti-Id 63G were broadly cross-reactive with strains of the A and B subtypes. However, the specificities of monoclonal antibody 63G and anti-anti-Id 63G were not exactly the same, as indicated by their reaction with escape mutants to antibody 63G. These results demonstrate for the first time the induction of an anti-respiratory syncytial virus response by anti-Id antibodies.     

Reversal of snake neurotoxin binding to mammalian acetylcholine receptor by specific antiserum

Snake curaremimetic toxins are known to bind to the nicotinic acetylcholine receptor (AcChoR) [Changeux et al. (1970) Proc. Natl Acad. Sci. USA, 67, 1241-1247], thus blocking neuromuscular transmission, and producing respiratory failure in mammals. In the present paper we show that the toxic effects of Naja nigricollis toxin alpha to mammals can be efficiently reversed by toxin-alpha-specific antibodies. In vivo we observed that return to normal breathing in toxin-alpha-intoxicated and ventilated rats was 12 times faster after injection of specific antiserum or monoclonal antibody (M-alpha 1) as compared with control animals. Ex vivo we observed that return to normal contraction of a toxin-alpha-blocked phrenic nerve-hemidiaphragm preparation was 14 times more rapid after treatment with specific antiserum than after washings. In vitro we observed that antibodies accelerated the reversal of binding of [3H]toxin alpha to AcChoR prepared from rat diaphragm. The observation made in vitro furthermore indicates that antibodies are capable of destabilizing the [3H]toxin-AcChoR complex. A similar destabilization phenomenon occurs also in vivo, as inferred from measurements of receptor occupancy by [3H]toxin alpha in diaphragm of anaesthetized rats in the presence or absence of antibodies. The property of antibodies to reverse neurotoxin binding to AcChoR may be considered as a critical test for evaluation of the quality of a neurotoxin-specific antisera.     

Thymus-dependent antiidiotype and anti-antiidiotype responses to a dinitrophenyl-specific monoclonal antibody

BALB/c mice were inoculated i.p. with graded doses of a DNP-specific, IgM mAb (designated 57.1). Injection with unmodified 57.1 in the absence of adjuvants resulted in the generation of an anti-Id response (Ab2) and an anti-anti-Id response (Ab3). The generation of serum anti-Id antibodies was found to be thymus dependent. Nude mice immunized with 57.1 were unable to produce a serum Ab2 response above nonimmunized controls whereas euthymic mice receiving identical doses of 57.1 produced strong Ab2 responses. To examine the specificity of serum anti-Id, sera from mice receiving 57.1 were screened against a panel of mAb representing at least five distinct VH gene families. Serum titers were significantly higher against 57.1 than against any of the other antibodies in the panel. Three of the antibodies in this panel bind FD5-1, a monoclonal anti-Id (Ab2) that also binds 57.1. However, sera from mice receiving 57.1 bound 57.1 only. Thus, the serum Ab2 response appears to be highly specific for idiotopes on 57.1. The predominant isotype of these anti-Id antibodies was IgG1. The number of isotypes detected increased in a dose dependent manner with all IgG subclasses having anti-Id specificity in sera from animals receiving the higher doses of 57.1. Further analysis of the serum demonstrated that approximately 8% of the Ab2 response was paratope-specific (inhibitable by the monovalent hapten DNP-lysine). The same sera were analyzed for the presence of Ab3 by binding to the monoclonal anti-Id antibody FD5-1. Lower serum titers of Ab3 were generated in comparison to serum titers of Ab2. Analysis of the binding specificity of the Ab3 response revealed that DNP-BSA was able to partially inhibit the binding of serum IgM and IgG Ab3 to FD5-1. A subset of the Ab3 response. Ab1' that is specific for DNP was observed in a direct binding assay where detectable amounts of DNP binding IgM, IgG1, and IgG3 isotypes were present. We have thus described a complete circuit (Ab1----Ab2----Ab3) of antibodies within the Id network by immunizing animals with an unmodified mAb in the absence of Ag or adjuvants.     

Recognition of the acetylcholine receptor binding site of a long-chain neurotoxin by toxin-specific monoclonal antibodies.

The present paper reports the preparation and characterization of two neutralizing monoclonal antibodies (Mabs), called MST1 and MST2, which bind at the central loop of a long-chain neurotoxin from cobra venom. The central loop is a critical region for the binding of the toxin to the nicotinic acetylcholine receptor. Some of the residues incorporated in the epitopes recognized by MST1 and MST2 have been identified on the basis of competition experiments using a set of 'chemical mutants' of the toxin. We show that MST1 and MST2 bind at the base and at the tip of the central loop of the toxin, respectively, however, only MST2 actually overlaps the acetylcholine receptor binding site. Accordingly, only MST2 is capable of recognizing all homologous toxins so far examined. MST2, therefore, mimicks, at least partially, the site by which the nicotinic acetylcholine receptor recognizes a long-chain neurotoxin.     

Idiotypic analysis of anti-I-Ak monoclonal antibodies. III. T- and B-cell responses to anti-Ia idiotopes are not modulated by syngeneic anti-idiotypic monoclonal antibodies

To investigate whether anti-idiotypic (anti-Id) antibodies activate T cells either directly or indirectly, we examined the ability of syngeneic anti-Id monoclonal antibodies (mAbs) to regulate idiotype (Id) expression, antigen-binding antibody production, and T-cell reactivity to antigen. Our idiotypic system consists of an anti-I-A mAb that carries an infrequently expressed Id. Using three syngeneic anti-Id mAbs (Ab2), we previously defined the idiotype of the 11-5.2.1.9 (11-5) anti-I-Ak mAb. Two of these mAbs, IIID1 and IA2, recognize the same or closely related epitopes on 11-5 and cross react with two additional anti-I-Ak mAbs, 8B and 39J; the third anti-Id mAb, VC6, recognizes a distinct epitope shared by 11-5 and 8B. In the present study, BALB/c (H-2d) mice were primed with varying doses of these anti-Ids and were then boosted with C3H (H-2k) spleen cells. Among 130 such primed mice, the syngeneic anti-Ids when tested at priming doses between 10 ng and 10 micrograms were unable to induce Id production. The priming anti-Id mAbs persisted in the serum of the mice and were detectable as late as 40 days after priming. Ab1 expression was not modulated in BALB/c mice immunized with KLH-coupled Ab2, however, this immunization elicited the production of Ab3 which shared idiotypes with 11-5, 8B, and 39J. BALB/c anti-C3H alloreactive T-cell clones were also not induced by anti-Id priming, nor could they be shown to bind directly to the three Ab2 used. Nevertheless, the proliferative response of one anti-I-Ak specific T-cell clone that recognizes the same epitope as 11-5, 8B, and 39J, was inhibited by the IIID1 and IA2 Ab2. Thus, a T cell can express an idiotype shared by a B cell, but the linked recognition of an Id-associated carrier determinant(s) by an alloreactive T cell is required to elicit an anti-Id antibody response. These results favor the possibility that the activation of T cells is not dependent upon their ability to bind to anti-Id, but rather on their capacity to respond to epitopes of Id-anti-Id antigen-antibody complexes formed on B cells.     

Induction of immune response to influenza virus with anti-idiotypic antibodies.

Anti-idiotypic (anti-Id) antibodies were raised in rabbits against five monoclonal antibodies (MAbs) specific for different antigenic sites on the hemagglutinin (HA) of influenza virus Mem71H-BelN (H3N1) [A/Memphis/1/71 (H3N2) x A/Bel/42 (H1N1)]. Each of the anti-Id sera was directed predominantly towards a unique (private) idiotype of the immunizing MAb, none of the five idiotypes being detectable in pooled BALB/c antisera against Mem71H-BelN virus or on most other anti-HA MAbs tested. Partial idiotypic sharing was observed, however, between certain MAbs, from different mice, having the same or similar epitope specificity for HA. When used as immunogens in BALB/c mice, two of the five anti-Id preparations induced antibodies that reacted with Mem71H-BelN virus and displayed neutralizing activity. Mice of other inbred strains responded similarly, indicating that the response was not genetically restricted by the Igh locus. From their pattern of reactivity with mutants of Mem71H-BelN virus with known single amino acid substitutions in the HA molecule, the antiviral antibodies elicited by anti-Id antibodies were shown to be directed to the same antigenic site on A/Memphis/1/71 HA as the original immunizing MAb (site A or site E, respectively). However, several of these antisera were shown to contain additional distinct subpopulations of antibodies specific for heterologous influenza A virus strains, either of the H3 subtype or of a different HA subtype (H1 or H2). Since the induction of antibodies to HA of different subtypes is not a feature of the antibody response to influenza virus itself, their induction by anti-Id antibodies merits further investigation.     

Immune response to human immunodeficiency virus. In vivo administration of anti-idiotype induces an anti-gp160 response specific for a synthetic peptide

Anti-idiotypic antibodies (anti-Id) to chimpanzee antibodies directed against a synthetic peptide corresponding to a native epitope associated with gp41 of human immunodeficiency virus (HIV) envelope glycoprotein were produced in rabbits. The peptide was analogous to amino acid sequences 735 to 752 from the human T cell leukemia virus-IIIB isolate of HIV. Characteristics of the anti-Id preparation included: 1) detection of a shared determinant present on a second chimpanzee and one of three rabbit antibody preparations directed against the synthetic peptide, 2) failure to recognize an idiotype (Id) in BALB/c mouse antisera to the peptide, and 3) partial inhibition of the homologous chimpanzee Id preparation from binding either peptide or a recombinant HIV gp160 preparation. Immunization of BALB/c mice with the anti-Id induced an antipeptide response which bound a recombinant gp160 preparation without subsequent peptide or gp160 exposure. The anti-gp160 containing sera from mice immunized with anti-Id were able to inhibit the Id-anti-Id reaction indicating that an Id-positive antibody response was induced. This Id is not normally expressed in the murine anti-gp 160 immune response to the synthetic peptide and suggests that this anti-Id may activate normally silent clones. This study indicates that Id networks may be operational during the immune response to HIV epitopes. Alternatively, anti-Id may be useful in altering the serologic characteristics of an antibody response to HIV and may offer potential for modulating the immune response in this viral infection.     

The ability of an oligomeric human immunodeficiency virus type 1 (HIV-1) envelope antigen to elicit neutralizing antibodies against primary HIV-1 isolates is improved following partial deletion of the second hypervariable region

Partial deletion of the second hypervariable region from the envelope of the primary-like SF162 virus increases the exposure of certain neutralization epitopes and renders the virus, SF162DeltaV2, highly susceptible to neutralization by clade B and non-clade B human immunodeficiency virus (HIV-positive) sera (L. Stamatatos and C. Cheng-Mayer, J. Virol. 78:7840-7845, 1998). This observation led us to propose that the modified, SF162DeltaV2-derived envelope may elicit higher titers of cross-reactive neutralizing antibodies than the unmodified SF162-derived envelope. To test this hypothesis, we immunized rabbits and rhesus macaques with the gp140 form of these two envelopes. In rabbits, both immunogens elicited similar titers of binding antibodies but the modified immunogen was more effective in eliciting neutralizing antibodies, not only against the SF162DeltaV2 and SF162 viruses but also against several heterologous primary HIV type 1 (HIV-1) isolates. In rhesus macaques both immunogens elicited potent binding antibodies, but again the modified immunogen was more effective in eliciting the generation of neutralizing antibodies against the SF162DeltaV2 and SF162 viruses. Antibodies capable of neutralizing several, but not all, heterologous primary HIV-1 isolates tested were elicited only in macaques immunized with the modified immunogen. The efficiency of neutralization of these heterologous isolates was lower than that recorded against the SF162 isolate. Our results strongly suggest that although soluble oligomeric envelope subunit vaccines may elicit neutralizing antibody responses against heterologous primary HIV-1 isolates, these responses will not be broad and potent unless specific modifications are introduced to increase the exposure of conserved neutralization epitopes.     

Spontaneous shift of anti-DNA antibody idiotypes in systemic lupus erythematosus

Spontaneous shift in Id expression of polyclonal anti-DNA antibodies in a patient, BS, with SLE was investigated. BS had active lupus nephritis in 1982 and developed central nervous system lupus in 1986 without evidence of active nephritis. Two rabbit polyclonal anti-Id (BS-82 and BS-86 R-anti-Id) were raised against affinity-purified anti-DNA antibodies prepared from 1982 serum (BS-82) and 1986 serum (BS-86), respectively. In addition, murine monoclonal anti-Id was prepared against BS-82 Id. Direct binding assays showed that all three anti-Id had preferential binding to the immunizing anti-DNA antibodies (the homologous Id) and poor binding to anti-DNA antibodies prepared from the different dated sample of BS. This was confirmed by inhibition assays of binding of anti-Id to the homologous Id by various Id. Moreover, inhibition assays of binding of various Id to DNA by the R-anti-Id showed that the R-anti-Id was the most effective inhibitor for the homologous Id. Testing for Id expression in serial (1982 to 1986) serum samples of BS with the R-anti-Id as probes showed that BS-82 Id declined and was undetectable after October, 1984, whereas BS-86 Id was first detectable in July, 1985, and increased by June, 1986. These results clearly demonstrate spontaneous shifts in Id expression of human anti-DNA antibodies. The phenomenon of Id shift should be considered in any future strategy for the diagnosis and therapy of human autoimmune disease by anti-Id.     

Anti-thyroglobulin anti-idiotypic antibodies in sera of patients with Hashimoto's thyroiditis and Graves' disease

The objective of this study was to find naturally occurring anti-idiotypic (anti-Id) antibodies to anti-human thyroglobulin (anti-hTg) idiotype in sera of patients with autoimmune thyroid disease. Sera from patients with Hashimoto's thyroiditis (HT), Graves' disease (GD), rheumatoid arthritis (RA), and systemic lupus erythematosus (SLE) and sera from normal subjects were tested for the presence of anti-Id antibodies against mouse anti-hTg monoclonal antibodies (McAb) in indirect ELISA and in indirect solid-phase RIA. Microtitration plates were coated with six McAb, five of them directed against different epitopes on hTg molecule, and then incubated with patients' sera. The bound antibody was detected with either peroxidase or 125I-labeled anti-human IgG. The specific positive reaction was observed in four of 40 patients with HT, in two of 26 patients with GD, in seven of 58 patients with RA, and in none of 20 normal subjects. The detected binding was due to the presence of anti-hTg anti-Id antibodies and not to Tg-anti-Tg circulating immune complexes, as the positive sera did not contain hTg when resolved on SDS-PAGE, nor did they bind to all anti-hTg McAb tested. The binding was dose dependent, and titers of anti-Id antibodies varied from 1:243 to 1:2187. The binding could be inhibited up to 50% by hTg, but not by the thyroid microsomal antigen, indicating that some of those anti-Id might represent the internal image of the antigen. Serum from the patient 3403, showing the strongest reactivity against McAb A-3, was chosen for IgG purification and F(ab')2 fragment isolation. The 3403 F(ab')2 fragment, but not the Fc fragment, was found to react specifically with four mouse anti-hTg McAb but not with the control mouse IgG. Thus, the obtained results permit the conclusion that anti-hTg anti-Id antibodies could occur naturally during the course of thyroid autoimmune disorders.     

Neutralization of HIV-1 by anti-idiotypes to monoclonal anti-CD4. Potential for idiotype immunization against HIV.

Anti-idiotypic antibodies were raised in rabbits against a panel of 11 murine mAb directed to the human CD4 receptor. Selection of mAb for vaccination was based on inhibition studies demonstrating that these mAb recognized CD4/V1 epitopes implicated in HIV-1-gp120 binding. Purified antisera showed high titer anti-Id activity and reacted specifically with Ag-combining site-related Id of the mAb used for their generation. Anti-Id either detected a private Id of the immunizing mAb or displayed a partial cross-reactivity with Id of other mAb to CD4. Eight anti-Id to six different mAb were shown to recognize determinants of recombinant HIV-1-gp120 or of HIV-1-gp160 as shown by ELISA and radioimmunoprecipitation assay. These anti-Id were capable of inhibiting HIV infection up to 100% in a MT-4 cell assay in vitro. In addition to neutralizing infectivity of cell-free virus, anti-Id to two mAb--the mAb IOT4a and 7.3F11--were also shown to inhibit HIV-induced syncytia formation up to 100%. Anti-Id to the mAb IOT4a, 7.3F11, and to the mAb anti-Leu3a interfered with rgp120 binding to cellular CD4 as assessed by flow cytometry. These results demonstrated that mAb specific for both CDR2- and CDR3-like regions of CD4 were capable of inducing HIV-1-gp120 cross-reacting anti-Id neutralizing HIV-1 in vitro. These studies may have implications for the development of a gp120 internal image based vaccine against HIV.     

Analysis of idiotope variability as a function of distance from the binding site for anti-streptococcal group A carbohydrate antibodies

We have extended our analysis of rat monoclonal anti-idiotopes (anti-Id) specific for previously mapped binding site-associated (distal) and less-or nonbinding site-associated (proximal) idiotopes on a murine monoclonal anti-streptococcal group A carbohydrate (GAC) antibody. By utilizing other monoclonal anti-GAC antibodies and anti-idiotypic antibodies as radiolabeled probands in both competitive and direct radioimmunoassays, we have detected previously unsuspected reactivities of some of the anti-Id. Although the anti-Id recognizing the most proximal idiotopes manifest relatively narrow ranges of binding strengths for anti-GAC antibodies, the anti-Id recognizing the most distal idiotopes display broader, more continuous distributions of binding strengths. These results suggest that mimicry of antigen structure by anti-Id might best be understood from a quantitative perspective, and that idiotopes intimately associated with binding sites display a broader range of variants than those not associated with binding sites. In addition, for one monoclonal anti-Id recognizing a distal determinant, changing the radiolabeled proband in inhibition radioimmunoassays results in dramatic changes in relative inhibitory efficacies for certain anti-GAC antibody inhibitors. This observation suggests the possibility that this anti-Id represents an example of a multispecific (polyfunctional) anti-idiotypic antibody.     

Structure and binding properties of a monoclonal anti-idiotypic autoantibody to anti-DNA with epibody activity.

We report the isolation and characterization of a mouse autoanti-idiotypic mAb (D7.4 IgG2a), which is directed against a major public Id (A52 IgG2b) in the murine and human autoimmune response to DNA. The natural anti-Id mAb has been produced in the course of the SLE-like disease in a female NZB/NZW F1 mouse and showed a dual specificity (epibody activity) for the public Id (A52) and for the autoantigen (DNA). The two binding activities were shown to reside in the Fab portion of the epibody and were highly specific for their respective Ag. A complete nucleotide sequence analysis of the D7.4 H and L chain V-region genes combined with computer comparisons to available Ig sequences may suggest a charge interaction between the H chain CDR3 segments of the Id and anti-Id antibodies. The D7.4 epibody may be a component of the self-binding, idiotypically connected network of natural antibodies. Alternatively, it could be elicited against the potentially pathogenic, DNA-containing immune complexes in order to facilitate their removal from the circulation of diseased individuals.     

Monoclonal anti-idiotopic antibodies against myasthenia-inducing anti-acetylcholine receptor monoclonal antibodies. Preponderance of nonparatope-directed antibodies affecting antigen binding

To analyze components of the idiotypic network in experimental autoimmune disease, we produced 17 isogeneic anti-idiotopic monoclonal antibodies (anti-Id) against two experimental autoimmune myasthenia gravis-producing anti-acetylcholine receptor (anti-AChR) monoclonal antibodies. We studied the binding of five of the anti-Id to the anti-AChR monoclonal antibodies bearing the complementary idiotopes (Id-mAb). They bound with Kd values ranging from 0.06 to 0.86 nM, values comparable to those of Id-mAb:AChR complexes (0.26 and 0.34 nM). All of the anti-Id tested moderately inhibited the binding of AChR to Id-mAb, whereas for each anti-Id, AChR either strongly inhibited anti-Id binding or had no effect on anti-Id binding. Hence, the inhibition of Id-mAb:AChR binding by anti-Id was not reciprocal with the inhibition of anti-Id:Id-mAb binding by AChR. For each anti-Id, the relative affinities of anti-Id and AChR for Id-mAb together with the lack of symmetry of inhibition by anti-Id compared to inhibition by AChR indicate that these two "ligands" are not competitive inhibitors. Consequently, anti-Id and AChR do not bind to overlapping sites on the Id-mAb, suggesting that the observed inhibition is mediated allosterically. This may be a common mechanism of anti-Id:Id binding, which would have important implications for the mechanism of anti-Id-induced suppression.     

Anti-idiotype antibodies prevent antibody binding to mouse sperm and antibody-mediated inhibition of fertilization

Antibodies to components of sperm can interfere with sperm function and prevent fertilization by blocking specific steps of gamete interaction. It can be proposed that anti-idiotype antibodies (anti-Ids) that recognize determinants located close to or within the antigen-binding site of an anti-sperm antibody could block antibody binding to sperm antigen and antibody-mediated inhibition of fertilization. To test this hypothesis, rabbit polyclonal antibodies to idiotypic determinants of the monoclonal anti-sperm antibody M42.15 were developed and characterized. Previous studies demonstrated that M42.15 monoclonal antibody (mAb) inhibits fertilization in vitro and in vivo by inhibiting sperm-zona pellucida interaction. Anti-idiotype antibodies to M42.15 mAb (anti-Id M42) were isolated by affinity chromatography on immobilized M42.15 mAb. Binding specificity of anti-Id M42.15 was demonstrated in a solid-phase radioimmune binding assay and by specific immunoprecipitation of soluble M42.15 mAb. Anti-Id M42 competitively inhibited M42.15 mAb, but not P220.2 mAb, binding to mouse sperm, confirming that the anti-Id preparation contained antibodies directed against idiotopes within or adjacent to the antigen-binding site of the mAb. At equimolar concentrations, anti-Id M42 inhibited binding of 125I-labeled M42.15 mAb to sperm by greater than 80%. These results showed that anti-Id M42 efficiently blocked antibody binding to sperm and suggested that anti-Id M42 could be used to neutralize the anti-fertility activity of the M42.15 mAb. When tested in in vitro fertilization assays, anti-Id M42, but not rabbit immunoglobulin, prevented M42.15 mAb-induced inhibition of fertilization. Together, these results show that the inhibitory activity of anti-sperm antibodies capable of interfering with gamete interaction can be neutralized by anti-Id that recognize determinants close to the antigen-combining site of the anti-sperm antibody.     

Evidence That Two Distinct Populations of Rabbit Anti-Idiotypic Antibodies Are Induced by Three Monoclonal Antibodies Specific for Bluetongue Virus Core Protein VP7

Three groups of anti-idiotypic antibodies (anti-Id or Ab2), designated RAb2-A, RAb2-B1, and RAb2-B2, were isolated from rabbit antiserum raised against three monoclonal antibodies (mAbs) (M1875, M1877, and M1886) specific for the bluetongue virus core protein, VP7. RAb2-A was specific for the idiotype of M1875. RAb2-B1 and RAb2-B2, isolated through the M1877 and M1886 affinity columns, respectively, were directed against the common idiotype that is shared by M1877 and M1886 and therefore classified in the same population (RAb2-B). Further characterization revealed that the two anti-Id populations, RAb2-A and RAb2-B, were significantly different. RAb2-A was an Ab2β type of anti-Id since (i) its reaction with M1875 was inhibited by the antigen; (ii) it inhibited the M1875-VP7 interaction; and (iii) it elicited anti-VP7 antibody response in Balb/c mice. In contrast, RAb2-B may represent an Ab2α type of anti-Id since its reactions with M1877 or M1886 were not inhibited by the antigen, even though it inhibited mAbs from binding to the antigen. These results indicated that RAb2-A and RAb2-B represent two distinct populations of anti-Ids to anti-VP7 mAbs with similar epitope specificity.     

Antiidiotypic antibody related to the 84 kD human sperm membrane protein

Wistar rats were inoculated with purified YWK-I antibody.The anti-idiotypic antibodies were isolated from rat sera by successive passage over affinity chromatography columns of YWK-I mAb and normal mouse Igs.Specificity of anti-Id antibody was established by ELISA.The 84kD protein inhibited the binding of anti-Id to YWK-I mAb,but failed to repress antibody against normal mouse Ig binding to YWK-I mAb.In competitive inhibition assay,84kD protein had shown the ability to compete with anti-Id binding to YWK-I mAb in a dose-dependent manner.Crude sperm extract showed a lower competitive ability.No effect was found with the irrelevant 36kD sperm protein.The antisera from the Balb/C micr immunized with AId contained Ab3 that reacted with 84kD sperm protein.The binding of anti-Id to YWK-I mAb was inhibited by Ab3 in a dose-dependent fashion and Ab3 was shown to be able to induce human sperm agglutination.These results indicate that anti-Id which may mimic an epitope of the 84kD protein could be exploited as an antigen to raise antibodies against sperm protein.     

Protection of mice against Clostridium chauvoei infection by anti-idiotype antibody to a monoclonal antibody to flagella

Abstract Polyclonal rabbit anti-idiotypic antibody (anti-Id) against the protective monoclonal antibody specific to the flagella of Clostridium chauvoei was produced, purified, and characterized. Anti-Id inhibited the binding of its related monoclonal antibody to the flagellar antigen, suggesting that the anti-Id bore an internal image of the flagellar antigen. When mice were immunized with anti-Id intraperitoneally, the survival rate increased significantly, compared with mice immunized with normal rabbit IgG ( P < 0.01), and specific anti-flagellar antibodies were induced.     

Human and murine anti-DNA antibodies induce the production of anti-idiotypic antibodies with autoantigen-binding properties (epibodies) through immune-network interactions

To examine the potential role of immune-network interactions in the production of lupus autoantibodies, normal NZW rabbit antibody responses were analyzed after immunization with one of the following Ig preparations: human lupus serum anti-dsDNA antibodies, human lupus serum anti-ssDNA antibodies, a mixture of human lupus serum anti-dsDNA and anti-ssDNA antibodies, the MRL-lpr/lpr anti-dsDNA mAb H241, and the MRL-lpr/lpr anti-ssDNA mAb H130. Four of five rabbits produced Ig typical of lupus autoantibodies: individual rabbit Ig cross-reacted with multiple autoantigens including nucleic acids, cardiolipin, SmRNP, glomerular extract, laminin, and exogenous Ag. Rabbit anti-Id against human anti-dsDNA antibodies were highly specific for dsDNA. Notably, in each serum the autoantibody activity was confined to the anti-Id Ig fraction. A similar spontaneously occurring Id-anti-Id interaction was also found between anti-ssDNA and anti-dsDNA antibodies isolated from an individual lupus patient. These results indicate that lupus autoantibodies which share Ag binding properties with pathogenic Ig, including both cross-reactive and anti-dsDNA antibodies, can induce the production of Ig with similar autoantigen binding properties through immune-network interactions. This phenomenon, if unregulated, could lead to the amplification of pathogenic autoantibody production in individuals with systemic lupus.